Impact of the extreme 2015-16 El Niño climate event on forest and savanna tree species of the Amazonia-Cerrado transition

•The forest plots recorded the greatest replacements and losses of species.•97 tree species were not recorded in our plots after ENSO 2015–2016.•An increase in pioneer species and those adapted to dry environments was observed across most vegetation types.•We present a list of vulnerable and drought...

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Published in:Flora. Morphologie, Geobotanik, Oekophysiologie Geobotanik, Oekophysiologie, 2024-10, Vol.319, p.152597, Article 152597
Main Authors: Prestes, Nayane C.C.S., Marimon, Beatriz S., Morandi, Paulo S., Reis, Simone M., Junior, Ben Hur Marimon, Cruz, Wesley J.A., Oliveira, Edmar A., Mariano, Lucas H., Elias, Fernando, Santos, Denilson M., Esquivel-Muelbert, Adriane, Phillips, Oliver L.
Format: Article
Language:English
Subjects:
Africa
Amazonia
botanical composition
Central America
cerrado
climate
Climate change
deciduous forests
Drought
Drought resistant species
ecosystems
El Nino
flora
habitats
new species
pioneer species
savannas
South America
species
Species losses
Species replacement
tree mortality
trees
vegetation structure
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Summary:•The forest plots recorded the greatest replacements and losses of species.•97 tree species were not recorded in our plots after ENSO 2015–2016.•An increase in pioneer species and those adapted to dry environments was observed across most vegetation types.•We present a list of vulnerable and drought-resistant species. Extreme drought events, driven by the El Niño Southern Oscillation (ENSO), are linked to increased tree mortality and alterations in vegetation structure, dynamics, and floristic composition in tropical forests. Existing analyses, primarily focusing on Africa, Central America, and Amazonia, overlook the floristic impacts on biome transitions. This study evaluates the profound effects of the severe 2015/2016 ENSO event on tree density and floristic composition in the critical transition zone between Amazonia and Cerrado, South America's largest biomes. Our findings not only document significant biodiversity loss but also offer insights into species resilience, guiding conservation strategies under changing climate conditions. We inventoried long-term plots before and after the extreme drought event, sampling 12,465 individuals from 526 species, 224 genera, and 65 families, in Open Ombrophilous Forest (OF), Seasonal Forest (SF), Cerradão (CD), and Typical Cerrado (TC). We document the disappearance from our plots of 97 species after the ENSO, with only 61 new species being recorded. The total loss of individuals across the transition zone was almost 10 %. The SF and CD forest plots showed the greatest replacements, species losses, and reductions in tree density. Their markedly seasonal baseline climate probably drove these changes. In most phytophysiognomies, there was an increase in pioneer species and drier environment habitat specialist species, indicating that although many species are vulnerable to extreme climate events, others benefit, especially those with a short life cycle. We found that the vegetation of the Amazonia-Cerrado transition overall is vulnerable to climate anomalies, with widespread loss of tree density and change in floristic composition. Our study also provides a species-by-species list of the most vulnerable and resistant trees which helps point to overall climate change vulnerabilities and assist with initiatives to recover degraded areas.
ISSN:0367-2530
DOI:10.1016/j.flora.2024.152597